CN102286118B - Titanium-containing solid catalyst component and catalyst for polymerization of olefin - Google Patents
Titanium-containing solid catalyst component and catalyst for polymerization of olefin Download PDFInfo
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Abstract
The invention relates to a titanium-containing solid catalyst component and catalyst for polymerization of olefin, and applications of the titanium-containing solid catalyst component and the catalyst in the homopolymerization and copolymerization of the olefin. The titanium-containing solid catalyst component utilizes composite carriers of magnesium chloride and silica gel, and a catalyst synthesized by taking 2,3-disubstituted butanedioic anhydride compound as an internal electron donor is used for the polymerization of the olefin during the synthesis of the catalyst component, in particular the polymerization of the propylene, thus the catalyst has excellent catalytic activity and excellent performances, and the obtain polymers have higher melting index. Before the development of the invention, the 2,3-disubstituted butanedioic anhydride compound disclosed by the invention is never taken as the internal electron donor to be applied to the catalyst for the polymerization of the olefin.
Description
Technical field
The present invention relates to a kind of ingredient of solid catalyst and catalyzer of titaniferous of for olefines polymerization, and its application in alkene homopolymerization and copolymerization.
Technical background
In the industry, carrier and electron donor are very important two aspects in the well-known polypropylene catalyst series.The carrier granule form has directly determined the form of catalyzer, and then the particle form of control polymkeric substance, and carrier having a great impact the activity of catalyzer also.Electron donor particularly internal electron donor on the impact of the degree of isotacticity own profound of the activity of catalyzer and polymerisate.Playing the part of very important effect in the development course of Ziegler-Natta catalyst, the renewal of internal electron donor has directly caused the renewal of catalyst system.Different internal electron donors are because the difference of its chemical composition and structure, and the impact of catalyst system performance is had very big difference.Thereby, use novel electron donor can obtain a kind of novel catalyzer.
In USP5122492, take magnesium chloride and silica gel (or aluminum oxide) as complex carrier, it is loaded with magnesium at silica gel (or aluminum oxide) first and makes complex carrier, again with titanium tetrachloride reaction, the catalyzer that obtains is used for propylene polymerization, and the activity of catalyzer is lower.In USP4861847, at first make the solution of magnesium chloride, add the precipitation additive phthalic anhydride, analyse with titanium tetrachloride by temperature programming and process out the ingredient of solid catalyst that contains the active centre.The catalyzer that obtains is used for polyacrylic synthetic, has the characteristics of high reactivity, high isotactic.In CN03157185.9, in the system of above-mentioned USP4861847, introduce SiO
2, obtain a kind of silicon/magnesium composite carried catalyst system, used conventional binary aromatic carboxylic acid's ester compound, make internal electron donor such as n-butyl phthalate or dimixo-octyl phthalate etc., catalyzer activity when being used for olefinic polymerization is lower; : CN 200510055518.6 uses the diol ester compound as internal electron donor in described silicon/magnesium composite carried catalyst system, and when the catalyzer that obtains was used for propylene polymerization, the apparent density of resulting polymers increased, and size distribution narrows down; Use 1,3-diether compounds as internal electron donor in CN 200510055517.1, the catalyst component of gained is when being used for olefinic polymerization, and catalyzer has good hydrogen response, under high hydrogen concentration, can obtain the polymkeric substance of high fusion index.
For thermoplastic olefin polymer, melting index has reflected flowing and processing characteristics of polymkeric substance, is an important indicator weighing the polymeric articles quality.The inventor herein finds to use 2 of general formula (I) in research process, the disubstituted Succinic anhydried compounds of 3-is used for olefinic polymerization as the synthetic catalyzer of internal electron donor, especially when the polymerization of propylene, catalyzer has good catalytic activity, catalyzer has good performance, and the polymkeric substance that obtains has higher melting index.And before this, of the present invention 2, the disubstituted Succinic anhydried compounds of 3-also never is used as in the catalyzer that internal electron donor is applied to olefinic polymerization.
Summary of the invention
The ingredient of solid catalyst of a kind of titaniferous for olefinic polymerization of the present invention, it is by forming homogeneous solution in the organic inert solvent system that magnesium halide is dissolved in organic epoxy compounds and organo phosphorous compounds, is Ti (OR with mentioned solution and at least a general formula
5)
4-nX
nTitanium compound carry out contact reacts, separate out the ingredient of solid catalyst of titaniferous.
In forming the homogeneous solution process or with titanium compound, carry out adding silicon-dioxide in the contact reacts process, preferably carrying out adding silicon-dioxide in the contact reacts process with titanium compound, and in the ingredient of solid catalyst preparation process of titaniferous, introducing at least a compound shown in the general formula (I) that is selected from;
Wherein, in general formula (I), R
1~R
4Can be identical or different, represent C
1~C
10Straight or branched alkyl, C
3~C
10Cycloalkyl, C
6~C
20Aryl, C
7~C
20Alkaryl or C
7~C
20Aralkyl; The compound mol ratio of the magnesium in the described magnesium halide, the titanium in the titanium compound and general formula (I), Mg: Ti: the compound of general formula (I)=1~200: 20~4000: 1; Preferred Mg: Ti: the compound of general formula (I)=5~100: 50~2000: 1.
Described silicon-dioxide is silica gel, and its median size is at 0.5~80 μ m, preferred 2~30 μ m, and the add-on of silica gel is counted 0.1~10 gram with every gram magnesium halide, preferred 0.5~5 gram.
The present invention is dissolved in magnesium halide in the solvent system that contains organic epoxy compounds and organo phosphorous compounds, can prepare magnesium halide solution according to disclosed method among the Chinese patent CN85100997, and disclosed associated viscera is all introduced the present invention as a reference among the CN85100997.
Wherein said magnesium halide is selected from the derivative that wherein one or two halogen atom in the complex compound, magnesium dihalide molecular formula of the water of magnesium dihalide, magnesium dihalide or alcohol is replaced by alkyl or halogen-oxyl.Particular compound is such as magnesium dichloride, dibrominated magnesium, chlorination phenoxy group magnesium, chlorination isopropoxy magnesium, chlorination butoxy magnesium etc., wherein preferred magnesium dichloride.
Wherein said organic epoxy compounds comprises at least a in oxide compound, glycidyl ether and the inner ether of 2~8 aliphatics alkene, diolefine or halo fat group alkene or diolefine of carbonatoms.Described organic epoxy compounds concrete as: oxyethane, propylene oxide, butylene oxide ring, butadiene oxide, butadiene double oxide, epoxy chloropropane, methyl glycidyl ether, diglycidylether or tetrahydrofuran (THF).
Wherein said organo phosphorous compounds is hydrocarbyl carbonate or the halo hydrocarbyl carbonate of ortho-phosphoric acid or phosphorous acid.Concrete as: ortho-phosphoric acid trimethyl, ortho-phosphoric acid triethyl, ortho-phosphoric acid tri-n-butyl, ortho-phosphoric acid triphenylmethyl methacrylate, trimethyl phosphite, triethyl-phosphite, tributyl phosphate or phosphorous acid benzene methyl.
In order to make magnesium halide dissolve more fully, in this solvent system, optionally add a certain amount of inert diluent.Described inert diluent can adopt hexane, heptane, octane, benzene,toluene,xylene, 1 usually, 2-ethylene dichloride, chlorobenzene and other hydro carbons or halogenated hydrocarbon compound and other other solvent that helps magnesium halide to dissolve.Inert diluent can use separately, also use capable of being combined.
In preparation ingredient of solid catalyst process, wherein in every mole of magnesium halide: organic epoxy compounds: 0.2-10mol, preferred 0.5~4mol; Organo phosphorous compounds: 0.1~5mol, preferred 0.3~1.0mol.
Separate out the solid catalytic ingredient of titaniferous after above-mentioned magnesium halide solution and the reaction of at least a titanium compound.Wherein said titanium compound is selected from general formula Ti (OR
5)
4-nX
nAt least a in the shown compound, R in the formula
5Be 1~20 alkyl for carbonatoms, R
5Preferred C
1~C
14Aliphatic group, X is identical or different, is F, Cl or Br, n is selected from 1~4 integer.Particular compound is such as a kind of or its mixture in titanium tetrachloride, titanium tetrabromide, titanium tetra iodide, four titanium butoxide, purity titanium tetraethoxide, a chlorine triethoxy titanium, dichloro diethoxy titanium, trichlorine one ethanolato-titanium, described titanium compound should be completely soluble liquefied compound under application of temperature, in the non-polar solvent, preferred titanium tetrachloride.
At described general formula (I) 2, in the structure of the disubstituted Succinic anhydried compounds of 3-, preferred group is: R
1~R
2For methyl, ethyl, n-propyl, sec.-propyl, normal-butyl, isobutyl-, n-pentyl, isopentyl, n-hexyl, cyclopentyl, cyclohexyl, phenmethyl, to methylbenzyl or styroyl; R
3~R
4Be methyl, ethyl, n-propyl, sec.-propyl, normal-butyl, phenyl, p-methylphenyl, o-tolyl, a tolyl or phenmethyl.Concrete compound comprises: 2,3-di-isopropyl-Succinic anhydried, 2,3-di-isopropyl Succinic anhydried, 2,3-di-isopropyl Succinic anhydried, 3-methyl-2-sec.-propyl Succinic anhydried, 3-ethyl-2-sec.-propyl Succinic anhydried, 3-propyl group-2-sec.-propyl Succinic anhydried, 3-butyl-2-sec.-propyl Succinic anhydried, 3-phenyl-2-sec.-propyl Succinic anhydried etc.
The compound of described general formula (I) can use separately also and can jointly use with other known internal electron donor compound.
Other above-mentioned internal electron donor compound is specifically disclosed interior to electron compound such as succinate compounds, phthalate compound, diether compound, diol-lipid compound etc.
In above-mentioned general formula (I) compound, particularly preferred group is: R
1~R
4Identical, be methyl, ethyl, n-propyl or sec.-propyl.Particularly preferred compound is 2,3-di-isopropyl-Succinic anhydried.
In preparation ingredient of solid catalyst process, the internal electron donor compound molar feed ratio of the magnesium in the described magnesium halide, the titanium in the titanium compound and general formula (I) is, Mg: Ti: the compound of general formula (I)=1~200: 20~4000: 1, preferred Mg: Ti: the compound of general formula (I)=5~100: 50~2000: 1.
The preferred silica gel of described inorganic oxide, its median size is at 0.5~80 μ m, preferred 2~30 μ m.
Usually, need through heat treated to remove moisture before silica gel uses.The introducing of silica gel can be at magnesium halide solution with before or after titanium compound contacts or simultaneously, preferred magnesium halide solution mixes with titanium compound and adds silica-gel carrier afterwards.
The add-on of silica gel is counted 0.1~10 gram with every gram magnesium halide, and is preferred: 0.5~5 gram.
The adding temperature of silica gel is-40~100 ℃, is preferably 0~30 ℃.
The add-on of titanium compound is counted 1~20mol with every mole of magnesium halide, and is preferred: 4~10mol.
The contact reacts temperature of titanium compound and magnesium halide solution is preferably :-40~0 ℃.For reaction is more easily controlled, preferably titanium compound is added in the magnesium halide solution and react, and then add silica-gel carrier.
In the reaction system temperature-rise period, separate out solid catalyst particle, and can regulate by the speed of heat-up rate the form of the solid catalyst of titaniferous.The ceiling temperature that heats up should be controlled at below the boiling point of solvent.
In addition, the present invention also provides a kind of for CH
2=CHR
6The catalyzer of olefinic polyreaction, wherein R
6Be hydrogen or C
1~C
12Alkyl or aryl, preferred C
1~C
6Alkyl; This catalyzer comprise following a), b), c) reaction product of three kinds of components:
A) the above-mentioned solids containing titanium catalyst component that is used for olefinic polymerization of the present invention;
B) alkylaluminium cpd; Its general formula is AlR
7 3, R
7Be identical or not identical C
1~C
8Alkyl, wherein one or two alkyl can be replaced by chlorine, can select one or more aluminum alkyls mix to use, preferred triethyl aluminum, triisobutyl aluminium, three n-butylaluminum, tri-n-hexyl aluminum, chlorination aluminum alkyls, Al (n-C
6H
13)
3, Al (n-C
8H
17)
3, AlEt
2Cl etc., its consumption are generally take the Al/Ti mol ratio as the described alkylaluminium cpd of 50~1000 uses;
C) randomly, a kind of external donor compound, for example list or polyfunctional carboxylic acids, carboxylic acid anhydride and carboxylicesters, ketone, ether, alcohol, lactone, and organophosphorus and silicoorganic compound.Preferably have organic silicon compound.Its consumption is 0.005~0.5 mole of every mole of aluminum alkyl compound, 0.02~0.1 mole of preferred every mole of aluminum alkyl compound.
Described external electron donor preferably contains at least one Si-OR
10The general formula of key is R
8 aR
9 bSi (OR
10)
cSilicon compound, wherein a and b are 0,1 or 2 integer, c be 1~3 integer and (a+b+c) and be 4; R
8, R
9And R
10C
1-C
18Alkyl, randomly contain heteroatoms.Particularly preferred silicon compound, wherein a is that 1, b is that 1, c is 2, R
8And R
9In have at least one to be to be selected from branched-alkyl, alkenyl, alkylidene group, cycloalkyl or the aromatic yl group with 3~10 carbon atoms, optional heteroatoms and the R of containing
10Be C
1-C
10Alkyl group, particularly methyl.The example of preferred silicon compound has Cyclohexyl Methyl Dimethoxysilane, diisopropyl dimethoxy silane, di-n-butyl dimethoxy silane, second, isobutyl dimethoxy silane, dimethoxydiphenylsilane, methyl-t-butyldimethoxysilane, dicyclopentyl dimethoxyl silane, 2-ethyl piperidine base-2-tertiary butyl dimethoxy silane and (1,1,1-three fluoro-2-propyl group)-2-ethyl piperidine base dimethoxy silane and (1,1,1-, three fluoro-2-propyl group)-methyl dimethoxysilane.
In addition, preferred silicon compound also has, and wherein a is that 0, c is 3, R
9Be branched-alkyl or group of naphthene base, optional heteroatoms and the R of containing
10Be methyl.The example of optional silicon compound has cyclohexyl trimethoxy silane, tert-butyl trimethoxy silane and uncle's hexyl Trimethoxy silane like this.
Also can select diether compound in addition, 2-sec.-propyl-2-isopentyl-1 wherein, the 3-Propanal dimethyl acetal, two (methoxymethyl) fluorenes of 9,9-are particularly preferred.
Above-mentioned alkylaluminium cpd and optional external donor compound can carry out contact reacts separately or as the mixture of two kinds of compositions and above-mentioned catalyst component.
Above-mentioned catalyzer is suitable for alkene CH
2=CHR
6, R wherein
6The alkyl or aryl of hydrogen or 1~12 carbon, the alkyl of preferred 1~6 carbon and the polyreaction that contains the mixture of (if necessary) a small amount of diolefine.
Catalyst olefinic polymerization provided by the present invention can be adopted the whole bag of tricks of the prior art, and there is no particular limitation.The polymerization of alkene is carried out according to currently known methods, in liquid monomer or monomer in the liquid phase of the solution in inert solvent, or in gas phase, or operates by the polymerization mix technique in liquid phase.Polymerization temperature is generally 0 ℃~150 ℃, preferred 60 ℃~100 ℃.Polymerization pressure is normal pressure or higher.
It should be noted that, the inventor herein at research process first with a kind of 2 of ad hoc structure that contains, the disubstituted Succinic anhydried compounds of 3-is as the synthetic catalyzer of internal electron donor, and find to use 2, the disubstituted Succinic anhydried compounds of 3-is used for olefinic polymerization as the synthetic catalyzer of internal electron donor, especially when the polymerization of propylene, the polymkeric substance that obtains has high fusion index.
Embodiment
Following example is used for illustrating the present invention, is not to limit the scope of the invention.
Testing method:
1, melt index: measure according to ASTM D1238-99.
2, polymkeric substance isotactic index: adopt the heptane extraction process to measure (heptane boiling extracting 6 hours): the dry polymer samples of two grams, be placed in the extractor with the extracting of boiling heptane after 6 hours, the polymer weight (g) that residuum is dried to the constant weight gained is degree of isotacticity with 2 ratio.
3, polymericular weight and molecular weight distribution MWD (MWD=Mw/Mn): adopt the gel permeation chromatography method, under 150 ℃, measure (standard specimens take trichlorobenzene as solvent with PL-GPC220, polystyrene, flow velocity: 1.0ml/min, pillar: 3xPlgel 10 μ m MIXED-B 300x7.5nm)
Embodiment 1
1, catalyzer is synthetic: in the double glazing reaction flask of 300ML, add successively the anhydrous MgCl of 5.0 grams
2120ml toluene, 8.0ml epoxy chloropropane, 10.0ml tributyl phosphate, after the dissolving this solution is being cooled to-25 ℃ fully under 60 ℃, drip the 50ml titanium tetrachloride, under-25 ℃, keep half an hour, add silica gel (Davison XP02485, use front lower dry 4 hours at 600 ℃) 3.0g, in temperature-rise period, add 2,3-di-isopropyl Succinic anhydried 5mmol, then slowly be warming up to 90 ℃ after elimination liquid, wash secondary with titanium tetrachloride, with hexane washing four times, obtain the spherical catalyst solid ingredient after the vacuum-drying.
2, propylene polymerization: in the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 1L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1.
Embodiment 2
The preparation of catalyzer is with embodiment 1
In the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 5L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1.
Embodiment 3
1, catalyzer is synthetic: in the double glazing reaction flask of 300ML, add successively the anhydrous MgCl of 5.0 grams
2120ml toluene, 8.0ml epoxy chloropropane, 10.0ml tributyl phosphate, after the dissolving this solution is being cooled to-25 ℃ fully under 60 ℃, drip the 50ml titanium tetrachloride, under-25 ℃, keep half an hour, add silica gel (Davison XP02485, use front lower dry 4 hours at 600 ℃) 3.0g, in temperature-rise period, add 2,3-di-isopropyl Succinic anhydried and diisobutyl phthalate be 5mmol (mol ratio is 1: 1) altogether, then slowly be warming up to 90 ℃ after elimination liquid, wash secondary with titanium tetrachloride, with hexane washing four times, obtain the spherical catalyst solid ingredient after the vacuum-drying.
2, propylene polymerization: in the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 1L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1.
Embodiment 4
The preparation of catalyzer is with embodiment 3
In the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 5L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1
Embodiment 5
1, catalyzer is synthetic: in the double glazing reaction flask of 300ML, add successively the anhydrous MgCl of 5.0 grams
2120ml toluene, 8.0ml epoxy chloropropane, 10.0ml tributyl phosphate, after the dissolving this solution is being cooled to-25 ℃ fully under 60 ℃, drip the 50ml titanium tetrachloride, under-25 ℃, keep half an hour, add silica gel (Davison XP02485, use front lower dry 4 hours at 600 ℃) 3.0g, in temperature-rise period, add altogether 5mmol (mol ratio is 1: 1) of two (methoxymethyl) fluorenes of 2,3-di-isopropyl Succinic anhydried and 9,9-, then elimination liquid after slowly being warming up to 90 ℃, wash secondary with titanium tetrachloride, with hexane washing four times, obtain the spherical catalyst solid ingredient after the vacuum-drying.
2, propylene polymerization: in the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 1L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1.
Embodiment 6
The preparation of catalyzer is with embodiment 5
In the 5L autoclave, at room temperature introduce the hexane solution (concentration of triethyl aluminum is 0.5mmol/ml) of 5ml triethyl aluminum, hexane solution (concentration of CHMMS is 0.1mmol/ml), 10ml anhydrous hexane and the 10mg ingredient of solid catalyst obtained above of 1.25ml Cyclohexyl Methyl Dimethoxysilane (CHMMS) in the stream of nitrogen gas.Close autoclave, introduce hydrogen 5L (standard volume) and liquid propene 2.3L, be warmed up to 70 ℃, polymerization 1 hour.Test result such as table 1.
Comparative Examples 1
With embodiment 1, just diisobutyl phthalate is replaced 2,3-di-isopropyl Succinic anhydried.
The performance of table 1 catalyzer
Embodiment | Polymerization activity (kgPP/gcat) | Polymkeric substance I.I (%) | Polymkeric substance MI (g/10min) | Molecular weight distribution |
Embodiment 1 | 19.0 | 91.2 | 87.4 | 7.0 |
Embodiment 2 | 9.3 | 86.4 | 89.2 | 6.9 |
Embodiment 3 | 22.3 | 92.4 | 42.6 | 6.2 |
Embodiment 4 | 22.4 | 86.7 | 101.3 | 6.2 |
Embodiment 5 | 65.7 | 98.5 | 11.8 | 4.8 |
Embodiment 6 | 45.6 | 97.6 | 13.1 | 4.5- |
Comparative Examples 1 | 17.0 | 97.5 | 43.6 | 6.0 |
Claims (10)
1. ingredient of solid catalyst that is used for the titaniferous of olefinic polymerization, it is by forming homogeneous solution in the organic inert solvent system that magnesium halide is dissolved in organic epoxy compounds and organo phosphorous compounds, is Ti (OR with mentioned solution and at least a general formula
5)
4-nX
nTitanium compound carry out contact reacts, separate out the ingredient of solid catalyst of titaniferous; It is characterized in that, in forming the homogeneous solution process or with titanium compound, carry out adding silicon-dioxide in the contact reacts process, and in the ingredient of solid catalyst preparation process of titaniferous, add at least a compound shown in the following general formula (I) that is selected from;
Wherein, in general formula (I), R
1~R
4Can be identical or different, represent C
1~C
10Straight or branched alkyl, C
3~C
10Cycloalkyl, C
6~C
20Aryl, C
7~C
20Alkaryl or C
7~C
20Aralkyl; Described titanium compound Ti (OR
5)
4-nX
nIn, R
5Be C
1~C
14Aliphatic group, X is identical or different, is F, Cl or Br, n is selected from 1~4 integer; The compound mol ratio of the magnesium in the described magnesium halide, the titanium in the titanium compound and general formula (I), Mg:Ti: the compound of general formula (I)=1 ~ 200:20 ~ 4000:1; Described silicon-dioxide is silica gel, and its median size is at 0.5 ~ 80 μ m, and the add-on of silica gel is counted 0.1 ~ 10 gram with every gram magnesium halide.
2. the ingredient of solid catalyst of titaniferous according to claim 1 is characterized in that, is carrying out adding silicon-dioxide in the contact reacts process with titanium compound, and the median size of silica gel is at 2 ~ 30 μ m, and add-on is counted 0.5 ~ 5 gram with every gram magnesium halide.
3. the ingredient of solid catalyst of titaniferous according to claim 1 is characterized in that, in the described general formula (I), and R
1~R
4Identical or different, be C
1~C
4The alkyl of straight or branched.
4. the ingredient of solid catalyst of titaniferous according to claim 1 is characterized in that, in the described general formula (I), and R
1~R
4Identical or different, be methyl, ethyl, n-propyl or sec.-propyl.
5. the ingredient of solid catalyst of titaniferous according to claim 1, it is characterized in that, the compound of described general formula (I) is selected from following compounds: 2,3-di-isopropyl Succinic anhydried, 3-methyl-2-sec.-propyl Succinic anhydried, 3-ethyl-2-sec.-propyl Succinic anhydried, 3-propyl group-2-sec.-propyl Succinic anhydried, 3-butyl-2-sec.-propyl Succinic anhydried or 3-phenyl-2-sec.-propyl Succinic anhydried.
6. the ingredient of solid catalyst of titaniferous according to claim 1 is characterized in that, the compound of described general formula (I) uses separately or randomly jointly uses with known other internal electron donor compound.
7. the ingredient of solid catalyst of titaniferous according to claim 6 is characterized in that, described other known internal electron donor compound is succinate compounds, phthalate compound, diether compound or diol-lipid compound.
8. the ingredient of solid catalyst of titaniferous according to claim 1 is characterized in that, the compound mol ratio of the magnesium in the described magnesium halide, the titanium in the titanium compound and general formula (I) is Mg:Ti: the compound of general formula (I)=5 ~ 100:50 ~ 2000:1.
9. one kind is used for CH
2=CHR
6The catalyzer of olefinic polyreaction, wherein R
6Be hydrogen or C
1~C
6Alkyl, this catalyzer comprises the reaction product of following component:
1) the described solids containing titanium catalyst component of one of claim 1 ~ 8;
2) alkylaluminium cpd;
3) randomly, external electron donor component;
Wherein the alkylaluminium cpd general formula is AlR
7 3, R
7Be identical or different C
1~C
8Alkyl, wherein one or two alkyl can be replaced by chlorine, uses the abovementioned alkyl aluminum compounds take the Al/Ti mol ratio as 50~1000;
Wherein the external electron donor component is general formula R
8 aR
9 bSi(OR
10)
cSilicon compound, wherein a and b are respectively 0,1 or 2 integer, c be 1~3 integer and (a+b+c) and be 4; R
8, R
9And R
10Identical or different, be C
1~C
18Alkyl, randomly contain heteroatoms, its consumption is counted 0.005~0.5 mole with every mole of aluminum alkyl compound.
10. according to claim 9 for CH
2=CHR
6The catalyzer of olefinic polyreaction, wherein external electron donor component R
8, R
9And R
10Identical or different, be C
1~C
4The alkyl of straight or branched, C
5~C
6Cycloalkyl; Its consumption is counted 0.02~0.1 mole with every mole of aluminum alkyl compound.
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